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Epilepsy Overview
for 3rd year medical students
Outline
• Classification
• New AED
• Epilepsy Surgery
• Drugs used for Status Epilepticus
• Conclusions
Seizures and Epilepsy• Seizure: abnormal hypersynchronous
electrical discharge form cerebral cortical
neurons.
• Clinical seizure: the clinical manifestation of
the electric seizure that depends on the site of
onste and path of propagation
Seizures
• Provoked seizures, also known as acute
symptomatic seizures, occur with an
identifiable proximate cause and are not
expected to recur in the absence of that
particular cause or trigger
• Unprovoked seizures occur without an
identifiable proximate cause, and epilepsy is
defined as a condition of recurrent
unprovoked seizures.
Epilepsy and neurotransmitters
It is classically thought to arise from
an imbalance between excitation and
inhibition in a localized region, multiple
brain areas or the whole brain.
(GABA)
• Gamma-aminobutyric acid
• The principal inhibitory neurotransmitter in the cerebral
cortex
• GABA is formed within GABAergic axon terminals and
released into the synapse, where it acts at one of two types
of receptor:
– GABAA, which controls chloride entry into the cell,
– GABAB, which increases potassium conductance, decreases
calcium entry, and inhibits the presynaptic release of other
transmitters.
Epilepsia. 2001;42 Suppl 3:8-12.
GABAergic mechanisms in epilepsy.
• GABA is rapidly removed by uptake into both glia and
presynaptic nerve terminals and then catabolized by
GABA transaminase.
• GABA agonists suppress seizures, and GABA antagonists
produce seizures
• Drugs that inhibit GABA synthesis cause seizures
• Benzodiazepines and barbiturates work by enhancing
GABA-mediated inhibition.
• Drugs that increase synaptic GABA are potent
anticonvulsants.
Epilepsia. 2001;42 Suppl 3:8-12.
GABAergic mechanisms in epilepsy.
Glutamate
• Glutamate is the principal excitatory
neurotransmitter in the brain and, as such, it
inevitably plays a role in the initiation and
spread of seizure activity.
• The release of glutamate acting on NMDA
receptors can induce seizures.
• In the hippocampus; brain insults, traumatic brain
injuries, or status epilepticus can cause an
imbalance between the GABAergic and
glutaminergic systems, while GABA has a
hypoactivity action and glutamate exerts an
excitotoxicity action
a
Rochester Minnesota Epilepsy Study (1935-1974)
Etiology of Newly Diagnosed Epilepsy
83
6
7
15 61
Cryptogenic
Vascular
Alcholo
Tumors
Post traumatic
Others
Relative risk of seizures1
0.36
1.5
2.3
2.5
2.6
3.6
4
4.2
10
10.1
16
22
25
60
0 10 20 30 40 50 60 70
severe militry HI
severe civil HI
stroke
viral encph
alcohol
AD
bact mening
mod HI
MS
heroin
family hx
aseptic mening
mild HI
marijuana
control
Relative risk
580
*
* Not significant
•HI= head injury
Epilepsy: Diagnosis
• History:
– Description of the event
– Medications and substances
– Past medical history
• Physical examination
• EEG
• MRI
• Special testing
ILAE classification of seizures
and epilepsy
• LEVEL 1: SEIZURE TYPE
• LEVEL 2: EPILEPSY BASED ON
SEIZURE TYPE
• LEVEL 3: EPILEPSY SYNDROME
• LEVEL 4: EPILEPSY WITH
ETIOLOGY
International classification of epileptic seizures
2017
• The classification is based on 3 key features:
– Where seizures begin in the brain
– Level of awareness during a seizure
– Other features of seizures
EPILEPSY BASED ON
SEIZURE TYPE
• Generalized epilepsy
• Focal epilepsy
• Generalized and focal epilepsy
• Unknown if generalized or focal epilepsy
EPILEPSY SYNDROME
• An epilepsy syndrome represents a complex
of clinical features, signs and symptoms that
together define a distinctive, recognizable
clinical seizure disorder
EPILEPSY WITH
ETIOLOGY
• Diagnosis at this level requires that the
primary etiology of the epilepsy has been
determined.
• Advances in neuroimaging and genetics, as
well as improved understanding of the role
of specific autoantibodies, have allowed
greater accuracy in diagnosis for many
people with epilepsy
Differential diagnosis of seizures in adults
• Vasovagal syncope
• Cardiogenic syncope
• Migraine
• TIA
• Psychogenic pseudosizures
• Panic attacks
• Rage attacks
DIFFERENCES BETWEEN SYNCOPE AND SEIZURES
FEATURE SYNCOPE SEIZURUE
POSTURE UPRIGHT ANY POSTURE
PALLOR AND SWEATING INVARIABLE UNCOMMON
ONSET GRADUAL SUDDEN/ AURA
INJURY RARE NOT UNCOMMON
CONVULSIVE JERKS RARE COMMON
INCONTENENCE RARE COMMON
UNCONSIOUSNESS SECONDS MINUTES
RECOVERY RAPID OFTEN SLOW
POST ICTAL CONFUSION RARE COMMON
FREQUENCY INFREQUENT MAY BE FREQUENT
PRECIPITATING FACTORS CROWDED PLACES, LACK
OF FOOD, UNPLEASENT
CONDITIONS
RARE
DIFFERENCES BETWEEN SEIZURES AND PSEUDOSEIZRUES
FEATURE EPILEPTIC SZ PSEUDO SZ
ONSET SUDDEN MAY BE
GRADUAL
RETAINED CONSCIOUSNESS
IN PROLONGE SEIZURES.
VERY RARE COMMON
FLAILING , THRASHING,
ASYNCHRONUS LIMB
MOVEMENTS
RARE COMMON
PELVIC THRUSTING
RARE COMMON
ROLLING MOVEMETNS
RARE COMMON
MOVEMENTS WAXING &
WAINING
RARE COMMON
CYANOSIS
COMMON UNUSUAL
TOUNGE BITING AND OTHER
INJURY
COMMON LESS
COMMON
DIFFERENCES BETWEEN SEIZURES AND PSEUDOSEIZRUES
FEATURE EPILEPTIC SZ PSEUDO SZ
STEREOTYPICAL ATTACKS
USUAL UNCOMMON
DURATION
SECONDS
,MINUTES
OFTEN
PROLONGED
RESISTANCE TO PASSIVE LIMB
MOVEMENT OR EYE OPENING
UNUSUAL COMMON
PREVNTION OF HAND FALLIN ON
FACE
UNUSUAL COMMON
INDUCED BY SUGGESTION
RARELY OFTEN
POSTICTAL DROWSINESS OR
CONFUSION
USUAL OFTEN ABSENT
ICTAL EEG ABNORMALITY
ALMOST ALWAYS ALMOST
NEVER
POST ICTAL EEG ABNORMALITY USUALLY RARE
ADVERSE PROGNOSTIC FACTORS IN EPILEPSY
• Symptomatic etiology.
• Partial onset seizures.
• Atonic seizures.
• Late onset or first year epilepsy
• Additional mental or motor handicap.
• Long duration prior to therapy.
• Poor initial response to therapy.
RIGHT ANTERIOR TEMPORAL SHARPS.
INTERICTAL GENERALIZED 3 HTZ SPIKE-WAVE DISCHARGE
GENERALIZED SEIZURE
Intractable Epilepsy
• Impairment of quality of life due toSeizures &/ or Drugs
• 20-30% of epileptics are intractable
• Patients failing 2 drugs are likely to be intractable
• 30-40% newly diagnosed partial epilepsy will not attain a seizure remission with pharmacotherapy.
Intractable Epilepsy
• Treatment options
New AED
surgery
Vagus nerve stimulation
special diets in children
New Anti Epileptic Drugs
Potential benefits of AED related
seizure control
• Reduced social stigma
• Reduced negative cognitive effects from frequent seizures.
• Reduced risk of status epilepticus ( if compliant)
• Reduced risk of physical injury
• Improve employment likelihood
• Helps maintain driving privileges
Risks of AED related adverse
effects
• Behavioral problems
• Cognitive impairment
• Idiosyncratic reactions
• Systemic toxicity
• Teratogenicity
• Expense
Ideal Antiepileptic Drug
• Antiepileptogenic
• Complete Seizure Suppression
• Minimal Side Effects
FACTS:
• 50 % of patients fail to achieve the
goal of treatment. (1985) NEJM
• 1/3 of patients treated 1984-1997 failed
to become seizure free in the first year
of treatment. (2000) NEJM
History of AED
Year Introduced Generic Name Trade Name
1857 Bromide Bromide
1912 Phenobarbital Luminal
1935 Mephobarbital Meberal
1938 Phenytoin Dilantin
1946 Trimethadione Tridione
1947 Mephenytoin Mesantoin
1949 Paramethadione Paradione
1951 Phenacemide Phenurone
1952 Metharbital Gemonil
History of AED
Year Intoroduced Generic Name Trade Name
1953 Phensuxamide Milontin
1954 Primidone Mysoline
1957 Methsuxamide Celontin
1957 Ethitoin Peganone
1960 Ethuxusamide Zarontin
1968 Diazepam Valium
1974 Carbamezapine Tegretol
1975 Clonazepam Clonopin
1978 Valproate Depakene
1981 Clorazapate Tranxene
History of New AED
Year Introduced Generic Name Trade Name
1993 Felbamate Felbatol
1993 Gapabentin Neurontin
1994 Lamotrigine Lamictal
1996 Topiramate Topamax
1997 Tiagabine Gabatril
Vigabatrin Sabril
1999 Levitracetam Keppra
2000 Oxycarbazine Trileptal
2000 Zonisamide Zonergan
Possible Advantages of New AED
• More effective
• Better tolerated
• Safer
• Better for women
• Less interaction
• Broader spectrum
New AED: common concern
• High cost
• Dose related toxicity
• Pharmacodynamic interactions
• Drug levels of limited use
New AED : how they compare
• Similar in :
Responder rate 40%
Seizure free rate < 10%
• Differ in :
Adverse effects
Pharmacokinetic profile
Efficacy for seizure type(s)
AED: Future Development
• Actions at NMDA receptors
• Actions at AMPA receptors
• GABA B receptors and absence seizures
• GABA and Glutamate transporters
• Metabotropic glutamate receptors
• Seretonin
• Neurosteroids
• Genetic studies and the nicotinic acetylcholenergic system
Epilepsy Surgery
Surgical Candidates
• Medically refractory seizures
• Physically, socially disabled
• Localization-related epilepsy
• Low risk of morbidity
• Potential for rehabilitaiion
Response to AED in newly diagnosed epileptics.
Kwan et al NEJM, 2000
47
13
4
0
5
10
15
20
25
30
35
40
45
50
1st AED 2nd AED 3rd or
more AED
%
Seizure
free
Epilepsy Surgery: Types
• Medial temporal lobe epilepsy: MTS Most commonMost successful
• Lesionectomy:TumorVascular anomalyCortical malformation
• Hemispherectomy: Rausmusen’s encephalitis
• Corpus callosotomy: LGS
• Vagal nerve stimulation: intractable, not surgical candidates
• Multiple subpial transection: elequent areas
Vagus nerve stimulation
Status Epilepticus
• Continuous or recurrent seizures without
recovery of consciousness for 30 minutes or
more ( tendency now to use shorter time
definition like 5 minutes and more.
CONCLUSIONS:
• Epilepsy is still a challenge
• New AED improved our treatment
• Need for more understanding of basic mechanism of epilepsy and its genesis
• Need to develop specific and target specific treatment
• Surgery is quite effective in properly selected patients but quite underused
• Intravenous benzodiazepines, phenytoin, phenbarb and valproic acid are available, effective and safe Rx for status epilepticus
THANK YOU
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